Integrated circuit comprising a non-dedicated terminal for receiving an erase program high voltage

1. An electronic system, comprising: an integrated memory circuit implemented on a semiconductor chip, the memory circuit including: a first terminal configured to receive a supply voltage from off of the chip; a second terminal configured to receive from off of the chip at least one of a data signal and a clock signal; and a memory configured to receive the supply voltage and to be modified electrically by a modify voltage greater than the supply voltage, and a data bus coupled to the integrated memory circuit configured to apply the modify voltage to the integrated memory circuit via at least one of the first and second terminals.

2. An electronic system according to claim 1 , comprising a voltage management device coupled to the data bus and configured to: monitor communications upon the data bus and detect that a write command is directed to the integrated memory circuit, and apply the modify voltage on the data bus in response to detecting the write command.

3. An electronic system according to claim 2 , wherein the voltage management device includes: an input terminal configured to receive the data signal; an output terminal coupled to the data bus; and a switch having a first terminal coupled to the input terminal, a second terminal coupled to the output terminal, a third terminal configured to receive the modify voltage, the switch being configured to selectively couple the first and second terminals together to provide the data signal to the output terminal and selectively couple the second and third terminals together to provide the monitor voltage to the output terminal.

4. An electronic system according to claim 3 , wherein the voltage management device includes: a charge pump configured to output a boosted voltage; and a sequencer circuit configured to produce the modify voltage from the boosted circuit, the sequencer circuit having an output coupled to the third terminal of the switch.

5. An electronic system according to claim 3 , wherein the voltage management device includes a control circuit configured to detect the write command on the data signal and, in response to detecting the write command, cause the switch to couple the second and third terminals of the switch to each other.

6. An electronic system according to claim 2 , wherein the voltage management device includes: a terminal coupled to the data bus; and a switch having a first terminal coupled to the terminal of the voltage management device and a second terminal configured to receive the modify voltage, the switch being configured to selectively couple the first and second terminals together to provide the modify voltage to the data bus.

7. An electronic system according to claim 6 , wherein the voltage management device includes: a charge pump configured to output a boosted voltage; and a sequencer circuit configured to produce the modify voltage from the boosted circuit, the sequencer circuit having an output coupled to the second terminal of the switch.

8. An electronic system according to claim 6 , wherein the voltage management device includes a control circuit coupled to the terminal of the voltage management device and configured to detect the write command at the terminal of the voltage management device and, in response to detecting the write command, cause the switch to couple the first and second terminals of the switch to each other.

9. A method, comprising: writing data in an integrated memory circuit implemented in a semiconductor chip and electrically powered by a supply voltage, the integrated memory circuit including a memory modifiable electrically by a modify voltage greater than the supply voltage, and a terminal configured to receive at least one of the supply voltage, a data signal, and a clock signal, the writing including: applying a write command to the integrated memory circuit; and supplying the modify voltage to the terminal of the integrated memory circuit.

10. A method according to claim 9 , wherein: the applying includes applying the write command to the integrated memory circuit from data bus, and the supplying includes supplying the modify voltage to the terminal of the integrated memory circuit from a wire of the data bus.

11. A method according to claim 10 , wherein the applying includes applying the write command to the integrated circuit from a master circuit coupled to the data bus, the method further comprising: detecting the write command using a voltage management device coupled to the data bus, the voltage management device being distinct from the master circuit and configured to monitor data traveling on the data bus, and applying the modify voltage to the wire of the data bus by the voltage management device.

12. An electronic system, comprising: an integrated memory circuit implemented on a semiconductor chip, the integrated memory circuit including: a first terminal configured to receive a supply voltage from off of the chip; a second terminal configured to receive from off of the chip at least one of a data signal and a clock signal; and a memory configured to receive the supply voltage and to be modified electrically by a modify voltage greater than the supply voltage; and a voltage management device coupled to a data bus and configured to: monitor communications upon the data bus and detect that a write command is directed to the integrated memory circuit, and transmit the modify voltage to the first integrated memory device in response to detecting the write command.

13. An electronic system according to claim 12 , wherein the voltage management device includes: an input terminal configured to receive the data signal; an output terminal coupled to the first integrated memory device; and a switch having a first terminal coupled to the input terminal, a second terminal coupled to the output terminal, a third terminal configured to receive the modify voltage, the switch being configured to selectively couple the first and second terminals together to provide the data signal to the output terminal and selectively couple the second and third terminals together to provide the monitor voltage to the output terminal.

14. An electronic system according to claim 13 , wherein the voltage management device includes: a charge pump configured to output a boosted voltage; and a sequencer circuit configured to produce the modify voltage from the boosted circuit, the sequencer circuit having an output coupled to the third terminal of the switch.

15. An electronic system according to claim 3 , wherein the voltage management device includes a control circuit configured to detect the write command on the data signal and, in response to detecting the write command, cause the switch to couple the second and third terminals of the switch to each other.

16. An electronic system according to claim 12 , wherein the voltage management device includes: a terminal coupled to the data bus; and a switch having a first terminal coupled to the terminal of the voltage management device and a second terminal configured to receive the modify voltage, the switch being configured to selectively couple the first and second terminals together to provide the modify voltage to the first integrated memory device via the data bus.

17. An electronic system according to claim 16 , wherein the voltage management device includes: a charge pump configured to output a boosted voltage; and a sequencer circuit configured to produce the modify voltage from the boosted circuit, the sequencer circuit having an output coupled to the second terminal of the switch.

18. An electronic system according to claim 16 , wherein the voltage management device includes a control circuit coupled to the terminal of the voltage management device and configured to detect the write command at the terminal of the voltage management device and, in response to detecting the write command, cause the switch to couple the first and second terminals of the switch to each other.